HU186200B - Multiple-purpose building frame - Google Patents

Abstract

The present invention relates to a multipurpose building frame for a load-bearing structure of one or more multi-storey buildings, which are columns of building envelopes and carrier carriers for transmitting loads to the columns, e.g. beams, slabs, etc. are. Its characteristic is that it has centrally depressed columns, and rods are suitably pressed by horizontal axis hinges and a fingernail-like grid with drawn rods and optionally additional rods connected to the hinges. on foot 18 5— -'- 3 -3 O) b) Figure 2 -1-

Description

The present invention relates to a multi-purpose building frame for the load-bearing structure of one or multi-storey buildings comprising columns of a building frame and carrier supports for transferring loads to the columns, e.g. beams, slabs, etc. are.

For similar purposes, several systems are common in the construction industry. The CLASP construction system uses a lattice-supported frame structure supported by columns and trapezoidal corrugated board or prefabricated reinforced concrete slabs. One of the faults is that it requires complex design and construction work and is expensive. The steel frame according to Hungarian Patent Application No. 168,205 includes steel columns and prefabricated reinforced concrete slabs. Another Hungarian solution is a grid with a spatial support grid supported on its edges and a corrugated slab structure. The common mistake of both is the high consumption of steel and the large amount of on-site live work.

The F10 construction system features a trapezoidal slab in a steel cell rack mounted on solid steel main supports. The main holders are supported by steel posts. This system also uses a lot of steel materials and requires heavy duty and expensive cranes to move its heavy components.

In addition to the above, many other lightweight structures have been developed, but they have not become widespread due to their complex manufacturing and assembly work, their material requirements and their cost.

It is an object of the present invention to provide a structure that is simple to design, easy, quick and inexpensive to construct.

The idea of the invention is based on the realization that the product is preferably picked up by a frame structure or bent elements consisting of drawn and pressed rods. It is economical to install trusses in areas subject to heavy loads, and to install bent elements in areas with lower loads. By combining the two structures correctly, the structure does not need to be oversized for standard mounting states.

In accordance with the object, the multifunctional building frame according to the invention is intended for the load-bearing structure of one or more storey buildings, which are the columns of the building frame and the carrier carrying the loads to the columns, e.g. beams, slabs, etc. They are designed so as to have columns pressed centrally or at most with low offset, and the columns are preferably connected to a mushroom-like grid comprising rods pressed by means of hinges of a horizontal axis and pulled rods joining them at an articulated junction.

A further feature of the multifunctional building frame of the present invention may be that the floor grid and possibly the column are supported by a point-loaded slab over the height-adjustable support structures at the nodes.

The column has one or more support joints at the load-carrying levels, a horizontal cantilever bracket at the junction of the pressed and pulled rods and a support joint fixed to the column, the brackets at the cantilever brackets at the cantilever brackets and, if appropriate, the spacers.

The hinged shell of the drawn bars and the pressed hinges and / or the hinged hinges of the bars aligned with the drawn raster and / or the drawn bar are laid together with the formwork shell, a disc is formed.

The columns are telescopic, the joints are preferably welded to the columns and the mushroom-like grid is attached to the joints.

A hollow spindle is clamped at the hinge end of the press rod or at the cantilever end of the cantilever bracket, comprising a threaded spindle which includes a support plate, one or more threaded pins, a clamping plate, and clamping nuts securing the slab panels to the upper end of the threaded spindle. and the threaded spindle is fixed to the press rod or cantilever bracket by nuts through the pipe sleeve.

A suspension rod is attached to the threaded spindle and a connecting element is attached to the suspension rod. In the columns connected to the outermost fields of the floor plan raster, additional stiffeners, e.g. anchoring elements are placed.

The main advantage of the device according to the invention is that its lightweight, easily movable elements can be assembled on site easily and quickly. The connections are made by screwing. Another advantage of the system is that it has low specific material consumption and is inexpensive. The structure can be used to connect the enclosure structures already used in the construction industry.

BRIEF DESCRIPTION OF THE DRAWINGS The invention will be described in more detail with reference to the drawings. The attached drawings show

Figure 1 is a schematic top view of a basic type of multipurpose building frame according to the invention, a

Figure 2 is a schematic side view of the same, a

Figure 3 is a plan view of another embodiment, a

Figure 4 is a side view of the same, the

Figure 5 is a plan view of a third embodiment, a

Figure 6 is a side view of the same, a

Figure 7 is a side view of the telescopic column, a

Figure 8 is the column in transport condition, a

Fig. 9 in column mounting condition, a

Figure 10: Node connection of slabs.

Figure 1 illustrates a basic type of building frame according to the invention. The pulled rods 2, the pressed rods 1 and the auxiliary rods 13 connected to each other in the articulated hub 6 are clearly visible. Also shown are the slab panels 4, which are supported by the articulated nodes 6, and the slab panels 10, which are placed on the node 6 and the columns 3.

Fig. 2 is a side view of the frame of the building showing the hinges of the horizontal axis 7 supported by the depressed rods 1; Figure 2a shows a column 3 for the outermost field of the floor plan raster with anchoring element 5 securing the grid. This drawing also illustrates the drawbar 2, the auxiliary rod 13, the articulated node 6, and

186,200 of the 4 slab panels. Figure 2b shows a column 3 of an intermediate field with slabs 10.

Figure 3 is again a top plan view of another embodiment of the invention. The push rod I is connected to the pulled rod 2 at the inner node 9. The horizontal cantilever bracket 8 rests on the support lattice and the pillar 3 at the inner node 9 and the support joint 11. Figure 3 also shows that the slabs 4 and 10 are loaded on the console ends 12. 10

Fig. 4 is a plan view of the embodiment described above. side view of a full figure. Figure 4a shows a single-storey configuration and Figure 4b shows a telescopic solution of the depressed column 3 for a multi-storey configuration. The slabs 10 rest on the intermediate node 15.

Figures 5 and 6 show a plan view and a side view of the slab 17 concreted in the shuttering shells 15 and 16 resting along the drawn rod 2. 20

Figure 7 illustrates a multi-storey version of the building. The 3 pressed columns are telescopic and can be pulled out by a hoist. The horizontal column 7 and the support 11 are welded to the depressed column 3. 25

Figure 8 shows the transport status of an element of a building frame. The pressed rods 1 are rotated about the horizontal pivot joints 7 welded to the pressed column 3 and flush with the body of the column 3.

Fig. 9 shows the change of the pressed rods 1 from the transport position 30 to the mounting position.

Fig. 10 is a structure for supporting a slab 6 or a bracket 12 for supporting slabs 4 or 10. The tubular sleeve 35 is clamped at the end of the pulled rod 1 or the bracket 8. The 2 Γ threaded spindle through the sleeve 20 can be leveled and secured with nuts 22. A support plate 23 is fastened to the upper end of the threaded spindle 21. The threaded pins 24 40 from the support plate 23 extend through the corners of the slabs 10 or 4 so that the panels 10 or 4 can be secured by tightening the clamping material 14 by means of the clamping plate 25. The suspension rod 26 is attached to the threaded spindle 21 and the connecting member 45 is attached thereto.

The multipurpose building frame according to the invention is suitable for the construction of single or multi-storey warehouses and industrial buildings, both industrial and agricultural. It can also be advantageously used for the construction of single or multi-storey floors 50 and residential buildings.

Claims (8)

Claims _5g 1. Multipurpose building frame for the load-bearing structure of single or multi-storey buildings, the columns of which are carried by the columns and the carrier supports for the transfer of loads to the columns, e.g. beams, slabs, etc. 60, characterized in that they have centrally depressed columns (3), and the columns (3) are preferably pressed by means of hinges (1) with horizontal axes (7) and pulled rods (2) connected thereto at a pivot point (6); a mushroom-like grid with additional bars (13) is connected. Embodiment of the building frame according to claim 1, characterized in that a point load-bearing ceiling panel (4, 10) is supported on the grid and possibly on the column (3) through height-adjustable support structures located at the nodes (6, 12). An embodiment of a building frame according to claim I, characterized in that the column (3) has one or more support joints (11) at the load transfer levels, at the connecting junction of the pressed rods (1) and the pulled rods (2). (6) and a support joint (11) fixed to the posts (3), resting on a horizontal cantilever bracket (8), on the cantilevered ends (12) of the slab panels (4,10) and optionally on the intermediate node of the posts (3). (18) rely on points. An embodiment of a building frame according to claim 1, characterized in that the formwork shell (6) of the hinged rods (2) and of the pressed rods (1) and / or the formwork shell (2) 15), as well as the articulation node (6) of the drawn rods (2) and the pressed rods (1) and the intermediate node (18) of the columns (3) and / or the drawn rod (2), covering a quarter of a field a formwork shell (16) is laid and a monolithic reinforced concrete plate (17) is formed on the top of the formwork shells (15, 16). 5. An embodiment of a building frame according to any one of claims 1 to 3, characterized in that the columns (3) are telescopic, the hinges (7, 11) are preferably secured to the columns (3) and the mushroom-like grid is connected to the hinge (7, 11). 6. An embodiment of a building frame according to any one of claims 1 to 6, characterized in that a pipe sleeve (20) is clamped in the end of the press rod (1) at the hinged node (6) or at the console end (12) of the bracket bracket (8). a fastening device comprising a support plate (23), one or more threaded pins (24), a clamping plate (25) and a nut (14) for clamping the slab panels (4, 10) attached to the upper end of the threaded spindle (21), the threaded spindle (21) is secured to the press rod (1) or the cantilever bracket (8) by nuts (22) through the pipe sleeve (20). 7. An embodiment of a building frame according to any one of claims 1 to 3, characterized in that a hanging rod (26) is attached to the threaded spindle (21) and a connecting element (19) is attached to the hanging rod (26). An embodiment of a building frame according to any one of claims 17, characterized in that the posts (3) for the columns (3) belonging to the outermost fields of the floor plan raster have additional stiffening means, e.g. anchoring elements (5) are provided.